---
title: "Reference: Prompt Alignment Scorer | Evals"
description: Documentation for the Prompt Alignment Scorer in Mastra. Evaluates how well agent responses align with user prompt intent, requirements, completeness, and appropriateness using multi-dimensional analysis.
---

import PropertiesTable from "@site/src/components/PropertiesTable";

# Prompt Alignment Scorer

The `createPromptAlignmentScorerLLM()` function creates a scorer that evaluates how well agent responses align with user prompts across multiple dimensions: intent understanding, requirement fulfillment, response completeness, and format appropriateness.

## Parameters

<PropertiesTable
  content={[
    {
      name: "model",
      type: "MastraModelConfig",
      description:
        "The language model to use for evaluating prompt-response alignment",
      required: true,
    },
    {
      name: "options",
      type: "PromptAlignmentOptions",
      description: "Configuration options for the scorer",
      required: false,
      children: [
        {
          name: "scale",
          type: "number",
          description: "Scale factor to multiply the final score (default: 1)",
          required: false,
        },
        {
          name: "evaluationMode",
          type: "'user' | 'system' | 'both'",
          description:
            "Evaluation mode - 'user' evaluates user prompt alignment only, 'system' evaluates system compliance only, 'both' evaluates both with weighted scoring (default: 'both')",
          required: false,
        },
      ],
    },
  ]}
/>

## .run() Returns

<PropertiesTable
  content={[
    {
      name: "score",
      type: "number",
      description:
        "Multi-dimensional alignment score between 0 and scale (default 0-1)",
    },
    {
      name: "reason",
      type: "string",
      description:
        "Human-readable explanation of the prompt alignment evaluation with detailed breakdown",
    },
  ]}
/>

`.run()` returns a result in the following shape:

```typescript
{
  runId: string,
  score: number,
  reason: string,
  analyzeStepResult: {
    intentAlignment: {
      score: number,
      primaryIntent: string,
      isAddressed: boolean,
      reasoning: string
    },
    requirementsFulfillment: {
      requirements: Array<{
        requirement: string,
        isFulfilled: boolean,
        reasoning: string
      }>,
      overallScore: number
    },
    completeness: {
      score: number,
      missingElements: string[],
      reasoning: string
    },
    responseAppropriateness: {
      score: number,
      formatAlignment: boolean,
      toneAlignment: boolean,
      reasoning: string
    },
    overallAssessment: string
  }
}
```

## Scoring Details

### Scorer configuration

You can customize the Prompt Alignment Scorer by adjusting the scale parameter and evaluation mode to fit your scoring needs.

```typescript showLineNumbers copy
const scorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
  options: {
    scale: 10, // Score from 0-10 instead of 0-1
    evaluationMode: "both", // 'user', 'system', or 'both' (default)
  },
});
```

### Multi-Dimensional Analysis

Prompt Alignment evaluates responses across four key dimensions with weighted scoring that adapts based on the evaluation mode:

#### User Mode ('user')

Evaluates alignment with user prompts only:

1. **Intent Alignment** (40% weight) - Whether the response addresses the user's core request
2. **Requirements Fulfillment** (30% weight) - If all user requirements are met
3. **Completeness** (20% weight) - Whether the response is comprehensive for user needs
4. **Response Appropriateness** (10% weight) - If format and tone match user expectations

#### System Mode ('system')

Evaluates compliance with system guidelines only:

1. **Intent Alignment** (35% weight) - Whether the response follows system behavioral guidelines
2. **Requirements Fulfillment** (35% weight) - If all system constraints are respected
3. **Completeness** (15% weight) - Whether the response adheres to all system rules
4. **Response Appropriateness** (15% weight) - If format and tone match system specifications

#### Both Mode ('both' - default)

Combines evaluation of both user and system alignment:

- **User alignment**: 70% of final score (using user mode weights)
- **System compliance**: 30% of final score (using system mode weights)
- Provides balanced assessment of user satisfaction and system adherence

### Scoring Formula

**User Mode:**

```
Weighted Score = (intent_score × 0.4) + (requirements_score × 0.3) +
                 (completeness_score × 0.2) + (appropriateness_score × 0.1)
Final Score = Weighted Score × scale
```

**System Mode:**

```
Weighted Score = (intent_score × 0.35) + (requirements_score × 0.35) +
                 (completeness_score × 0.15) + (appropriateness_score × 0.15)
Final Score = Weighted Score × scale
```

**Both Mode (default):**

```
User Score = (user dimensions with user weights)
System Score = (system dimensions with system weights)
Weighted Score = (User Score × 0.7) + (System Score × 0.3)
Final Score = Weighted Score × scale
```

**Weight Distribution Rationale**:

- **User Mode**: Prioritizes intent (40%) and requirements (30%) for user satisfaction
- **System Mode**: Balances behavioral compliance (35%) and constraints (35%) equally
- **Both Mode**: 70/30 split ensures user needs are primary while maintaining system compliance

### Score Interpretation

- **0.9-1.0** = Excellent alignment across all dimensions
- **0.8-0.9** = Very good alignment with minor gaps
- **0.7-0.8** = Good alignment but missing some requirements or completeness
- **0.6-0.7** = Moderate alignment with noticeable gaps
- **0.4-0.6** = Poor alignment with significant issues
- **0.0-0.4** = Very poor alignment, response doesn't address the prompt effectively

### When to Use Each Mode

**User Mode (`'user'`)** - Use when:

- Evaluating customer service responses for user satisfaction
- Testing content generation quality from user perspective
- Measuring how well responses address user questions
- Focusing purely on request fulfillment without system constraints

**System Mode (`'system'`)** - Use when:

- Auditing AI safety and compliance with behavioral guidelines
- Ensuring agents follow brand voice and tone requirements
- Validating adherence to content policies and constraints
- Testing system-level behavioral consistency

**Both Mode (`'both'`)** - Use when (default, recommended):

- Comprehensive evaluation of overall AI agent performance
- Balancing user satisfaction with system compliance
- Production monitoring where both user and system requirements matter
- Holistic assessment of prompt-response alignment

## Common Use Cases

### Code Generation Evaluation

Ideal for evaluating:

- Programming task completion
- Code quality and completeness
- Adherence to coding requirements
- Format specifications (functions, classes, etc.)

```typescript
// Example: API endpoint creation
const codePrompt =
  "Create a REST API endpoint with authentication and rate limiting";
// Scorer evaluates: intent (API creation), requirements (auth + rate limiting),
// completeness (full implementation), format (code structure)
```

### Instruction Following Assessment

Perfect for:

- Task completion verification
- Multi-step instruction adherence
- Requirement compliance checking
- Educational content evaluation

```typescript
// Example: Multi-requirement task
const taskPrompt =
  "Write a Python class with initialization, validation, error handling, and documentation";
// Scorer tracks each requirement individually and provides detailed breakdown
```

### Content Format Validation

Useful for:

- Format specification compliance
- Style guide adherence
- Output structure verification
- Response appropriateness checking

```typescript
// Example: Structured output
const formatPrompt =
  "Explain the differences between let and const in JavaScript using bullet points";
// Scorer evaluates content accuracy AND format compliance
```

### Agent Response Quality

Measure how well your AI agents follow user instructions:

```typescript
const agent = new Agent({
  name: "CodingAssistant",
  instructions:
    "You are a helpful coding assistant. Always provide working code examples.",
  model: "openai/gpt-5.1",
});

// Evaluate comprehensive alignment (default)
const scorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
  options: { evaluationMode: "both" }, // Evaluates both user intent and system guidelines
});

// Evaluate just user satisfaction
const userScorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
  options: { evaluationMode: "user" }, // Focus only on user request fulfillment
});

// Evaluate system compliance
const systemScorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
  options: { evaluationMode: "system" }, // Check adherence to system instructions
});

const result = await scorer.run(agentRun);
```

### Prompt Engineering Optimization

Test different prompts to improve alignment:

```typescript
const prompts = [
  "Write a function to calculate factorial",
  "Create a Python function that calculates factorial with error handling for negative inputs",
  "Implement a factorial calculator in Python with: input validation, error handling, and docstring",
];

// Compare alignment scores to find the best prompt
for (const prompt of prompts) {
  const result = await scorer.run(createTestRun(prompt, response));
  console.log(`Prompt alignment: ${result.score}`);
}
```

### Multi-Agent System Evaluation

Compare different agents or models:

```typescript
const agents = [agent1, agent2, agent3];
const testPrompts = [...]; // Array of test prompts

for (const agent of agents) {
  let totalScore = 0;
  for (const prompt of testPrompts) {
    const response = await agent.run(prompt);
    const evaluation = await scorer.run({ input: prompt, output: response });
    totalScore += evaluation.score;
  }
  console.log(`${agent.name} average alignment: ${totalScore / testPrompts.length}`);
}
```

## Examples

### Basic Configuration

```typescript
import { createPromptAlignmentScorerLLM } from "@mastra/evals";

const scorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
});

// Evaluate a code generation task
const result = await scorer.run({
  input: [
    {
      role: "user",
      content:
        "Write a Python function to calculate factorial with error handling",
    },
  ],
  output: {
    role: "assistant",
    text: `def factorial(n):
    if n < 0:
        raise ValueError("Factorial not defined for negative numbers")
    if n == 0:
        return 1
    return n * factorial(n-1)`,
  },
});
// Result: { score: 0.95, reason: "Excellent alignment - function addresses intent, includes error handling..." }
```

### Custom Configuration Examples

```typescript
// Configure scale and evaluation mode
const scorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
  options: {
    scale: 10, // Score from 0-10 instead of 0-1
    evaluationMode: "both", // 'user', 'system', or 'both' (default)
  },
});

// User-only evaluation - focus on user satisfaction
const userScorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
  options: { evaluationMode: "user" },
});

// System-only evaluation - focus on compliance
const systemScorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
  options: { evaluationMode: "system" },
});

const result = await scorer.run(testRun);
// Result: { score: 8.5, reason: "Score: 8.5 out of 10 - Good alignment with both user intent and system guidelines..." }
```

### Format-Specific Evaluation

```typescript
// Evaluate bullet point formatting
const result = await scorer.run({
  input: [
    {
      role: "user",
      content: "List the benefits of TypeScript in bullet points",
    },
  ],
  output: {
    role: "assistant",
    text: "TypeScript provides static typing, better IDE support, and enhanced code reliability.",
  },
});
// Result: Lower appropriateness score due to format mismatch (paragraph vs bullet points)
```

### Excellent alignment example

In this example, the response fully addresses the user's prompt with all requirements met.

```typescript title="src/example-excellent-prompt-alignment.ts" showLineNumbers copy
import { createPromptAlignmentScorerLLM } from "@mastra/evals/scorers/prebuilt";

const scorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
});

const inputMessages = [
  {
    role: "user",
    content:
      "Write a Python function to calculate factorial with error handling for negative numbers",
  },
];

const outputMessage = {
  text: `def factorial(n):
    """Calculate factorial of a number."""
    if n < 0:
        raise ValueError("Factorial not defined for negative numbers")
    if n == 0 or n == 1:
        return 1
    return n * factorial(n - 1)`,
};

const result = await scorer.run({
  input: inputMessages,
  output: outputMessage,
});

console.log(result);
```

### Excellent alignment output

The output receives a high score because it perfectly addresses the intent, fulfills all requirements, and uses appropriate format.

```typescript
{
  score: 0.95,
  reason: 'The score is 0.95 because the response perfectly addresses the primary intent of creating a factorial function and fulfills all requirements including Python implementation, error handling for negative numbers, and proper documentation. The code format is appropriate and the implementation is complete.'
}
```

### Partial alignment example

In this example, the response addresses the core intent but misses some requirements or has format issues.

```typescript title="src/example-partial-prompt-alignment.ts" showLineNumbers copy
import { createPromptAlignmentScorerLLM } from "@mastra/evals/scorers/prebuilt";

const scorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
});

const inputMessages = [
  {
    role: "user",
    content: "List the benefits of TypeScript in bullet points",
  },
];

const outputMessage = {
  text: "TypeScript provides static typing, better IDE support, and enhanced code reliability through compile-time error checking.",
};

const result = await scorer.run({
  input: inputMessages,
  output: outputMessage,
});

console.log(result);
```

#### Partial alignment output

The output receives a lower score because while the content is accurate, it doesn't follow the requested format (bullet points).

```typescript
{
  score: 0.75,
  reason: 'The score is 0.75 because the response addresses the intent of explaining TypeScript benefits and provides accurate information, but fails to use the requested bullet point format, resulting in lower appropriateness scoring.'
}
```

### Poor alignment example

In this example, the response fails to address the user's specific requirements.

```typescript title="src/example-poor-prompt-alignment.ts" showLineNumbers copy
import { createPromptAlignmentScorerLLM } from "@mastra/evals/scorers/prebuilt";

const scorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
});

const inputMessages = [
  {
    role: "user",
    content:
      "Write a Python class with initialization, validation, error handling, and documentation",
  },
];

const outputMessage = {
  text: `class Example:
    def __init__(self, value):
        self.value = value`,
};

const result = await scorer.run({
  input: inputMessages,
  output: outputMessage,
});

console.log(result);
```

### Poor alignment output

The output receives a low score because it only partially fulfills the requirements, missing validation, error handling, and documentation.

```typescript
{
  score: 0.35,
  reason: 'The score is 0.35 because while the response addresses the basic intent of creating a Python class with initialization, it fails to include validation, error handling, and documentation as specifically requested, resulting in incomplete requirement fulfillment.'
}
```

### Evaluation Mode Examples

#### User Mode - Focus on User Prompt Only

Evaluates how well the response addresses the user's request, ignoring system instructions:

```typescript title="src/example-user-mode.ts" showLineNumbers copy
const scorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
  options: { evaluationMode: "user" },
});

const result = await scorer.run({
  input: {
    inputMessages: [
      {
        role: "user",
        content: "Explain recursion with an example",
      },
    ],
    systemMessages: [
      {
        role: "system",
        content: "Always provide code examples in Python",
      },
    ],
  },
  output: {
    text: "Recursion is when a function calls itself. For example: factorial(5) = 5 * factorial(4)",
  },
});
// Scores high for addressing user request, even without Python code
```

#### System Mode - Focus on System Guidelines Only

Evaluates compliance with system behavioral guidelines and constraints:

```typescript title="src/example-system-mode.ts" showLineNumbers copy
const scorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
  options: { evaluationMode: "system" },
});

const result = await scorer.run({
  input: {
    systemMessages: [
      {
        role: "system",
        content:
          "You are a helpful assistant. Always be polite, concise, and provide examples.",
      },
    ],
    inputMessages: [
      {
        role: "user",
        content: "What is machine learning?",
      },
    ],
  },
  output: {
    text: "Machine learning is a subset of AI where computers learn from data. For example, spam filters learn to identify unwanted emails by analyzing patterns in previously marked spam.",
  },
});
// Evaluates politeness, conciseness, and example provision
```

#### Both Mode - Combined Evaluation (Default)

Evaluates both user intent fulfillment and system compliance with weighted scoring (70% user, 30% system):

```typescript title="src/example-both-mode.ts" showLineNumbers copy
const scorer = createPromptAlignmentScorerLLM({
  model: "openai/gpt-5.1",
  options: { evaluationMode: "both" }, // This is the default
});

const result = await scorer.run({
  input: {
    systemMessages: [
      {
        role: "system",
        content:
          "Always provide code examples when explaining programming concepts",
      },
    ],
    inputMessages: [
      {
        role: "user",
        content: "Explain how to reverse a string",
      },
    ],
  },
  output: {
    text: `To reverse a string, you can iterate through it backwards. Here's an example in Python:
    
    def reverse_string(s):
        return s[::-1]
    
    # Usage: reverse_string("hello") returns "olleh"`,
  },
});
// High score for both addressing the user's request AND following system guidelines
```

## Comparison with Other Scorers

| Aspect         | Prompt Alignment                           | Answer Relevancy             | Faithfulness                     |
| -------------- | ------------------------------------------ | ---------------------------- | -------------------------------- |
| **Focus**      | Multi-dimensional prompt adherence         | Query-response relevance     | Context groundedness             |
| **Evaluation** | Intent, requirements, completeness, format | Semantic similarity to query | Factual consistency with context |
| **Use Case**   | General prompt following                   | Information retrieval        | RAG/context-based systems        |
| **Dimensions** | 4 weighted dimensions                      | Single relevance dimension   | Single faithfulness dimension    |

## Related

- [Answer Relevancy Scorer](/reference/v1/evals/answer-relevancy) - Evaluates query-response relevance
- [Faithfulness Scorer](/reference/v1/evals/faithfulness) - Measures context groundedness
- [Tool Call Accuracy Scorer](/reference/v1/evals/tool-call-accuracy) - Evaluates tool selection
- [Custom Scorers](/docs/v1/evals/custom-scorers) - Creating your own evaluation metrics
